Risk analysis of vapour cloud explosions for oil and gas facilities /

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Bibliographic Details
Author / Creator:Ma, Guowei, author.
Imprint:Singapore : Springer, [2019]
©2019
Description:1 online resource
Language:English
Subject:
Format: E-Resource Book
URL for this record:http://pi.lib.uchicago.edu/1001/cat/bib/11895370
Hidden Bibliographic Details
Other authors / contributors:Huang, Yimiao, author.
Li, Jingde, author.
ISBN:9789811379482
9811379483
9811379475
9789811379475
9789811379499
9811379491
9789811379505
9811379505
9789811379475
Digital file characteristics:text file PDF
Notes:Vendor-supplied metadata.
Summary:This book focuses on describing and applying risk analysis of vapour cloud explosions (VCEs) in various oil and gas facilities, such as petrol stations, processing plants, and offshore platforms. Discussing most of the complicated features of gas explosion accidents, the book studies in detail the gas explosion risk analysis approaches of different oil and gas facilities in order to develop more accurate, detailed, efficient and reliable risk analysis methods for VCEs under different conditions. Moreover, it introduces an advanced overpressure approach to predict VCEs using computational fluid dynamics (CFD) modelling, and details applications of CFD using a FLame ACceleration Simulator (FLACS). The book is intended for researchers and organisations engaged in risk and safety assessments of VCEs in the oil and gas industry.
Other form:Printed edition: 9789811379475
Printed edition: 9789811379499
Printed edition: 9789811379505
Standard no.:10.1007/978-981-13-7
10.1007/978-981-13-7948-2
Table of Contents:
  • Intro; Preface; Contents; 1 Introduction; 1.1 Background; 1.2 Formation of VCEs; 1.2.1 Gas Release; 1.2.2 Dispersion and Ventilation; 1.3 Ignition; 1.4 Combustion Properties of Fuel-Air Mixtures; 1.5 Deflagrations and Detonations; 1.5.1 Deflagrations; 1.5.2 Detonation; 1.5.3 Deflagration to Detonation Transition (DDT); 1.6 Facility Conditions; 1.7 Overpressure Prediction; References; 2 VCE Overpressure Prediction Using Empirical Methods; 2.1 TNT Equivalency Model; 2.2 TNO Multi-Energy Model; 2.3 Baker-Strehlow-Tang Model; 2.4 Applications of Empirical Models Using PHAST
  • 2.4.1 Introduction to DNV PHAST2.4.2 Case Study; 2.5 Summary; References; 3 VCE Overpressure Prediction by CFD Modelling; 3.1 Methodology of CFD Simulation; 3.1.1 Fluid Flow Equations; 3.1.2 Stoichiometry; 3.1.3 Thermodynamic Relationships; 3.1.4 Ignition Process; 3.1.5 Geometry Counting and Porosity Calculations; 3.1.6 Boundary Conditions; 3.2 Modelling Turbulence and Combustion; 3.2.1 Turbulence Model; 3.2.2 Combustion Model; 3.3 Numerical Procedure; 3.3.1 Conservation Equations in Finite Domain; 3.3.2 Finite Domain Calculations; 3.3.3 The Continuity and Momentum Equations in Finite Domain
  • 3.3.4 Calculation Procedure3.4 Simulation Flow Chart; 3.5 Simulation Examples; 3.5.1 Geometry; 3.5.2 Definition of Grid and Calculation of Porosities; 3.5.3 Gas Dispersion Simulation; 3.5.4 Gas Explosion Simulation; 3.6 Summary; References; 4 CFD-Based Overpressure Prediction for Single Modules-Extended GAME Correlation; 4.1 Introduction; 4.2 The GAME Correlations and CFD Case Studies; 4.2.1 GAME Correlations; 4.2.2 Modules Tested in CFD Simulations; 4.2.3 Verification of GAME Correlation by Case Study; 4.3 Parametric Studies and Development of a New Correlation
  • 4.3.1 Conceptual Definition of Confinement and Congestion4.3.2 Definition of Parameters; 4.3.3 Proposition of New Correlation; 4.3.4 Verification of the New Correlation; 4.3.5 Discussions; 4.4 Evaluation of Explosion Overpressures in Irregularly Structured Configurations Using New Correlation; 4.4.1 Definition of Regularity or Irregularity of Confinement and Congestion; 4.4.2 Application of CSC to Irregularly Arranged Modules; 4.4.3 Rapid Prediction of Structural Damage; 4.5 Summary; References; 5 CFD-Based Overpressure Prediction for Double Modules-Data-Dump Technique; 5.1 Introduction
  • 5.2 Numerical Models for Separated Congestions in Double Modules5.2.1 Experimental Set-up; 5.2.2 CFD Modelling Using FLACS; 5.3 Results and Discussions; 5.3.1 Gas Explosion Overpressures with a Small Separation Distance in the Double Modules; 5.3.2 Gas Explosion Overpressures with a Large Separation Distance in the Double Modules; 5.3.3 Data-Dump Technique; 5.4 Summary; References; 6 CFD-Based Overpressure Prediction for Congested Multi-Modules-Safety Gap Effect; 6.1 Introduction; 6.2 Numerical Models; 6.2.1 Ship-Shaped FLNG; 6.2.2 Cylindrical FLNG; 6.3 Safety Gap Effect on Gas Explosion